People of Northwest Public Radio
Wed April 25, 2012
Mad Cow Disease: What You Need To Know Now
Originally published on Thu April 26, 2012 7:29 am
Mad cow disease has been detected in a cow in California, the first time since 2006 that the deadly disease has surfaced in the U.S.
What does that mean for those of us who might want to eat a burger, or drink a glass of milk? The food supply is safe, the U.S. Department of Agriculture said Tuesday. Here's a quick rundown of what we know now. For more on mad cow, listen to Jim Culler, director of the UC Davis Food Safety Lab, on today's All Things Considered.
How can the USDA say this doesn't threaten safety of the food supply?
There are two reasons.
The first is that the cow in question wasn't destined for the food supply. Its carcass had been sent to a rendering plant in California. Those carcasses are typically used for pet food or industrial uses.
The second is that this cow had a rare form of bovine spongiform encephalopathy, mad cow's official name, that is caused by a spontaneous mutation. That's different than getting the disease from eating feed made out of bone and tissue from infected cattle, which caused the outbreaks in England in the 1980s and 1990s.
How was this case of mad cow found?
The cow was selected for random testing at Baker Commodities in Hanford., Calif., an official there told the Associated Press.
It's part of a testing program mandated by the USDA after mad cow disease was first discovered in the United States in 2003.
The USDA randomly tests about 40,000 cattle per year. That's just a tiny percentage of the 34 million cattle slaughtered in the U.S. in 2011. But the testing is supposed to focus on older cattle or sick cattle most likely to be infected.
This case brings the mad cow count in the United States up to four. That includes the first case, in Washington state in 2003; one cow in Texas in 2005; and one in Alabama in 2006.
What causes mad cow disease?
It's caused by prions, weird mutant proteins that are found in brain and spinal tissue. They're responsible for other diseases in animals, and the human version of mad cow, called Creutzfeldt-Jakob disease. All these diseases slowly destroy brain tissue, and are fatal. There's no treatment.
Prions were first discovered by neurologist Stanley Prusiner in the 1980s. They remain mysterious, and there's no consensus on what causes them to form.
How do people get infected?
People can get Creutzfeldt-Jakob disease from spontaneously generated misfolding of proteins in the nervous system. Or they can get it from eating meat from an infected cow. That's what happened in the United Kingdom. More than 150 people died of the disease there in the 1980s and 1990s. Researchers eventually figured out that they got sick from eating the meat of infected cattle.
Why is that less of a threat now?
The U.S. and other countries have stopped using high-risk cattle parts in animal feed, including pet food. That includes parts from older animals, and brain and spinal tissue. Feed was considered a key cause of the British mad cow epidemic.
Feed bans are thought to be responsible for reducing the number of cases of mad cow worldwide from 37,311 in 1992 to 29 in 2011.
Is it possible to get mad cow disease from milk?
The milk supply is safe, federal officials say. Prion diseases affect the nervous system, and there's no evidence they've ever been transmitted by drinking milk.
How worried should I be?
Though mad cow disease and C-J disease sound like material from a horror movie, both diseases are very rare. The federal Centers for Disease Control and Prevention estimates that mad cow disease affects 0.167 cows per million in the United States.
ROBERT SIEGEL, HOST:
Mad cow is back, albeit briefly. The disease made infamous by a huge outbreak in Britain in the 1980s and early '90s popped up again this week, this time in California. It's the first U.S. case of mad cow disease in six years. After this week's discovery, the USDA quickly announced that this infected cow did not enter the country's meat supply.
James Culler is director of the University of California Davis Dairy Food Safety Laboratory. He's an authority on dairy cattle and dairy farming and he joins us now.
Welcome to the program.
JAMES CULLER: Well, thank you for having me. I appreciate it.
SIEGEL: And tell us, how did officials catch this particular case of mad cow disease?
CULLER: This was detected during the routine surveillance program that they have in place with the California Department of Food and Agriculture.
SIEGEL: And the cow in question - tell us about the animal and why we shouldn't worry about it, according to USDA.
CULLER: OK. This animal has the atypical or the spontaneous form, which is much more rare occurrence and it presents differently. It's still - the prion is refolded in a particular way that it's still contained and confined to the brain tissue, spinal cord and ganglia and is not in the milk or meat. But the animal presents as more of a downer cow, more docile and still easily picked up.
SIEGEL: You used the word spontaneous to describe this particular form of mad cow disease. That sounds almost medieval. The disease somehow just happens inside the brain. It isn't contracted from food or contact with something?
CULLER: No. This particular form is exactly like you described it. It's spontaneous. It happens in nature. It's a random event that happens on rare occasions.
SIEGEL: So, coming up with such an animal in a spot check would be something very rare. The odds would be very much against this, I should think.
CULLER: Well, the odds are very much against us seeing it on a frequent basis, but the routine monitoring system did pick it up and so we know that it's not the classical form, so we know that our things that we do to protect and detect are in place and working. In fact, it works so well, we were able to find this more rare form of the disease.
SIEGEL: But when you turn up an example of something so rare, it would seem reasonable one might check and recalculate the odds. Is it possibly more common than we thought it was?
CULLER: Well, you're right in that we found it now and so the regulatory officials and mathematicians and statisticians will re-look at this, evaluate it and then see if there are any adaptations or changes in our monitoring system need to be made. And so they're working through that process now and I'm very comfortable with how they're going to work through this.
SIEGEL: Well, James Culler of the University of California Davis Dairy Food Safety Laboratory, thanks a lot for talking with us.
CULLER: Thank you. Transcript provided by NPR, Copyright NPR.